A glass container includes legible indicia having an indicia outer surface coextensive with an outer surface of an adjacent portion of the container and with no V-shaped depressions, and having an indicia inner surface that protrudes radially inwardly with respect to an inner surface of the container adjacent to the indicia inner surface.
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1. A glass container including legible indicia having an indicia outer surface coextensive with an outer surface of an adjacent portion of the container and an indicia inner surface that protrudes radially inwardly with respect to an inner surface of the container adjacent to the indicia inner surface, wherein the container has a radial wall thickness between the inner and outer surfaces, wherein the indicia includes embossments appearing as inwardly projecting projections in cross section and including lands that are longitudinally parallel to the container inner surface and are spaced radially inwardly with respect to the rest of the container inner surface, and sides including fillets extending inwardly from the inner surface and rounds extending from the fillets to the lands, wherein the sides are not straight but are continuously curving, and wherein each side comprises an inflection point between, or a tangent of, the fillet and the round.
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The present disclosure is directed to containers and, more particularly, to glass containers and related manufacturing methods and equipment.
In general, glass bottles typically include a body, a shoulder, a neck, and a neck finish. Such bottles may be produced using a blow-and-blow manufacturing process or a press-and-blow manufacturing process.
U.S. Pat. No. 8,333,287 discloses a method of producing a longneck bottle by pushing a parison neck against a debossed internal surface of a blank mold to form a radially thick external embossment on the parison neck, and then blowing the embossed parison neck against an internal surface of a blow mold to push the external embossment on the neck through the wall of the neck to form a radially thick and inwardly projecting embossment in the bottle so as to affect flow of liquid thereover. A commercial implementation of the method includes use of mold debossments/engravings that are radially deep and circumferentially wide: 0.64 mm deep, and 3.6 mm wide, wherein the entirety of the engravings are defined by a continuously curving surface defined by a single fillet of 2.8 mm radius and rounds of 3.2 mm radius on either circumferential side of the fillet. Such dimensions were chosen to produce a radially thick embossment projecting radially inwardly so as to provide good agitation or directional control of liquid flowing thereover.
U.S. Patent Application Publication 2015/0096913 discloses a method of producing a glass container having sharply outlined indicia. The method includes forming an embossment on an exterior surface of a parison, and pushing the embossment against a blow mold internal surface to collapse the embossment into a wall of the container without pushing corresponding material through the wall of the container into an interior of the container. The method includes use of mold debossments/engravings that are 0.3 mm thick and 3 mm wide, with a radially outward surface, straight/flat sidewalls angled at 45 to 75 degrees, fillets of 0.3 mm between the outward surface and the sidewalls, and rounds of 0.15 mm between the sidewalls and an interior surface of the mold. Such dimensions were chosen to produce indicia of good resolution in an exterior surface of a container.
The present disclosure embodies a number of aspects that can be implemented separately from or in combination with each other.
In accordance with the disclosure, there is provided a glass container that includes legible indicia having an indicia outer surface coextensive with an outer surface of an adjacent portion of the container, and having an indicia inner surface that protrudes radially inwardly with respect to an inner surface of the container adjacent to the indicia inner surface, wherein the outer surfaces have no V-shaped depressions.
The disclosure, together with additional objects, features, advantages and aspects thereof, will be best understood from the following description, the appended claims and the accompanying drawings, in which:
According to the present disclosure, the container 20 includes integral indicia 34 in a generally radially inwardly facing inner, interior, or internal surface 36 of the container 20. As illustrated in
The container 20 may be of any suitable shape and size, may be composed of glass, may be fabricated by press-and-blow and/or blow-and-blow manufacturing operations, or by any other suitable technique(s), and may be used for containing, for example, a beverage, for instance, beer, wine, spirits, soda, or the like, or any other any flowable product. The container 20 is of one-piece integrally formed construction, for, example, of glass, ceramic, or plastic construction. (The term “integrally formed construction” does not exclude one-piece integrally molded layered glass constructions of the type disclosed for example in U.S. Pat. No. 4,740,401, or one-piece glass bottles to which other structure is added after the bottle-forming operation.)
With reference to
The indicia 34 includes embossments 40 that may be appear as inwardly projecting bulges or projections in cross section and may be spaced apart and corresponding to one another. For example, the embossments 40 may include lands 48 that are longitudinally parallel to the container internal surface 36 and are spaced radially inwardly with respect to the rest of the container internal surface 36, and sides 42 including fillets 44 extending inwardly from the internal surface 36 and rounds 46 extending from the fillets 44 to the lands 48. Accordingly, the sides 42 are not straight but are continuously curving, wherein each side 42 comprises an inflection point between, or a tangent of, the fillet 44 and the round 46. The lands 48 may include arc lengths that may be of circular or cylindrical shape, for instance, parallel to the external or internal surface of the container.
The resolution of the indicia 34 is surprisingly well-defined and legible, considering that the external surface 38 of the container is smooth in portions thereof that correspond to the indicia 34 with no scarring or other marks or design remnants. The inventors discovered that pre-forming the indicia 34 with subtle, continuously curving sides, and other novel geometry, dimensions, and/or dimensional relationships, into the external surface of a parison during the blank molding stage, results in a well-defined legible presentation of the indicia 34. In contrast to the internal surface 36, and in contrast to some other embossing techniques, the external surface 38 does not include V-shaped depressions. Rather, the external surface 38 may be substantially cylindrical, or conical (in a conical neck), or at least substantially circular in cross section.
In the illustrated example, the width of the embossments 40 in the circumferential direction, may be at least 2.4 mm. Also, the radial depth or thickness of the embossments 40 (from an internal surface of the lands 48 to an adjacent internal surface 36 of the container) is significantly less than the container wall thickness, but the embossments 40 protrude into the container interior.
In the illustrated example, the container wall thickness 27 may be 1.5 mm to 3.0 mm including all ranges, subranges, and values therebetween, and more specifically for example, about 2.25 mm. Also, the radial thickness of the embossments 40 may be 0.2 mm to 0.4 mm including all ranges, subranges, and values therebetween, for example, about 0.32 mm, i.e., 0.30 mm to 0.34 mm. Moreover, each fillet 44 may have a radius between 0.2 mm and 0.4 mm including all ranges, subranges, and values therebetween, for example, about 0.3 mm, i.e., 0.28 mm to 0.32 mm. Each round 46 may have a radius between 1.25 mm and 1.75 mm including all ranges, subranges, and values therebetween, for example, about 1.5 mm, i.e. between 1.4 mm and 1.6 mm.
Accordingly, a ratio of the container wall thickness (in a region corresponding to and/or adjacent to the embossment) to the embossment radial thickness may be between 3:1 and 15:1, including all ranges, subranges, and values therebetween, and in the example above, the ratio may be about 7:1. According to the illustrated example, each fillet 44 may have a radius that is about equivalent to the radial thickness of the embossment 40. According to other examples, the ratio of the radius of the fillet 44 to the embossment radial thickness may be between 0.5:1 and 2:1. Also according to the illustrated example, the round 46 may have a radius that is about five times the radial thickness of the embossment 40 and about five times the size of the fillet 44. According to other examples, the ratio of the radius of the round 46 to the radial thickness of the embossment 40 may be between 3:1 and 9:1 including all ranges, subranges, and values therebetween.
In the illustrated example, the fillets 84 may have a radius between 0.2 mm and 0.4 mm including all ranges, subranges, and values therebetween, for example, about 0.3 mm, i.e., 0.28 mm to 0.32 mm. According to the illustrated example, the fillet 84 may have a radius that is about equivalent to the radial depth 80 of the engraving 64. According to other examples, the ratio of the radius of the fillet 84 to the engraving radial depth may be between 0.5:1 and 2:1 including all ranges, subranges, and values therebetween.
The rounds 86 or blends of the sidewalls 76, 78 are located between the fillets 84 and the internal surface 66 of the mold 52. In the illustrated example, the round 86 may have a radius between 1.25 mm and 1.75 mm including all ranges, subranges, and values therebetween, for example, about 1.5 mm, i.e. between 1.3 mm and 1.7 mm. According to the illustrated example, the round 86 may have a radius that is about five times the radial depth 80 of the engraving 64 and about five times the size of the fillet 84. According to other examples, the ratio of the radius of the round 86 to the engraving radial depth 80 may be between 3:1 and 9:1. The fillets and rounds 84, 86 may be produced by corresponding features in a tool used to produce the engraving, and/or by a wire brush after the engraving is cut or otherwise produced, or may be produced in any other suitable manner.
Accordingly, the engraving 64 has a circumferential overall width 87, for instance, where each round 86 meets the internal surface 66 of the mold. The width 87 may be greater than 2.4 mm. In any case, the relationship between the radial thickness of the engraving 64 and the fillets 84 and rounds 86 of the engraving 64 are such that the sidewalls 76, 78 are not flat/straight and, instead, are continuously curving and are characterized by the fillets 84 that each extend over an angle of less than 90° and the rounds 86 that are tangent to the fillets 84 at an inflection point between the surface 74 and the internal surface 66.
In the illustrated example, the radial depth 80 of the engraving 64 may be 0.2 mm to 0.4 mm including all ranges, sub-ranges, and values therebetween. For example, the radial depth 80 may be about 0.32 mm, i.e., 0.30 mm to 0.34 mm. In any case, the radial depth 80 is such that there is at least some “push-through” of container material into the interior of the container to produce well-defined, legible indicia. Also, in the illustrated example, the circumferential width 81 of the surface 74, for example, in the circumferential direction, is greater than 1.0 mm. Width 81 pertains only to the width of surface 74 and does not include the fillets 84 or rounds 86. Accordingly, a ratio of the container wall thickness (in a region corresponding to and/or adjacent to the embossment) to the engraving radial depth may be between 3:1 and 15:1, including all ranges, subranges, and values therebetween, and in a specific example, the ratio may be about 7:1.
In the embodiments of
With reference to
Similarly, with reference to
In either case, and with reference to
The present disclosure provides an advancement in the art. Some prior approaches to embossing containers produced results satisfactory for their particular intended purposes, but would result in thick and wide radially inwardly projecting embossments that are not sufficiently resolute so as to be useful in providing well-defined legible indicia like lettering and logos. Other prior approaches to embossing containers likewise produced results satisfactory for their intended purposes, but could result in scarring of external surfaces of the containers in the vicinity of the embossments such that the external surfaces have a scratched appearance on and/or adjacent to the embossments. The shapes and dimensions of mold engravings for prior approaches may have been effective for achieving the particular results sought for those particular approaches, but were not effective for achieving the particular results presently taught herein.
According to conventional wisdom, it was believed that blank mold engravings for producing indicia embossments had to be relatively deep and steeply angled, with straight or flat sidewalls and tight fillets and rounds, in order to achieve a desired level of legibility of the embossments. From the present disclosure, it is now possible to produce a container having embossed indicia with improved resolution, using a blank mold having certain geometry, dimensions, and/or dimensional relationships to produce blank embossments for pushing of material through a wall of the container into the container interior during blow molding. More specifically, the present disclosure enables unexpectedly good results in the form of containers with surprisingly well-defined, legible indicia projecting radially inwardly from a container interior surface, and without producing scarring on the exterior surface of the container. Such results are different in kind and not merely in degree from the results of prior approaches. It is believed that two or more of the parameters/variables of the disclosed mold interact in an unexpected manner to provide the surprisingly good results taught herein.
There thus has been disclosed a container that fully satisfies all of the objects and aims previously set forth. The disclosure has been presented in conjunction with several illustrative embodiments, and additional modifications and variations have been discussed. Other modifications and variations readily will suggest themselves to persons of ordinary skill in the art in view of the foregoing discussion. The disclosure is intended to embrace all such modifications and variations as fall within the spirit and broad scope of the appended claims.
Grant, Edward A., Sanchez Parada, Delia Norith
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Mar 22 2018 | SANCHEZ PARADA, DALIA NORITH | Owens-Brockway Glass Container Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 053807 | /0847 | |
Mar 22 2018 | GRANT, EDWARD A | Owens-Brockway Glass Container Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 053807 | /0847 | |
Sep 09 2020 | INC. | (assignment on the face of the patent) | / | |||
Mar 25 2022 | Owens-Brockway Glass Container Inc | WELLS FARGO BANK, NATIONAL ASSOCIATION, AS COLLATERAL AGENT | SECURITY INTEREST SEE DOCUMENT FOR DETAILS | 059503 | /0312 |
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